Absorption body for attachment to the human body

ABSTRACT

The invention relates to an absorptive body ( 50 ) for attachment to the human body, especially for absorbing fluids coming out of parts of the human body such as wounds. Said absorptive body has a substantially flat material section made of an absorbing material ( 1 ), which consists of an absorbing nonwoven having super-absorber particles spread therein, and a fluid-permeable shell ( 2 ) that surrounds the material section, forms a barrier against solid excretions and enables the passage of other excreted substances into the material section made of absorbing material ( 1 ) that is arranged inside the shell ( 2 ). The shell is made of a small-pored material, whose pores are smaller than the unwetted super-absorber particles.

The invention relates to an absorptive body for attachment to the human body, particularly for the purpose of absorbing fluids exiting the human body from such points as wounds, that includes:

-   -   An essentially flat material section of absorptive material         consisting of an absorptive fleece with super-absorber particles         embedded in it, and     -   A moisture-permeable shell surrounding the absorptive material         and forming a barrier against particulate elimination and         allowing penetration of other eliminated substances to the         material section of absorptive material positioned within the         shell,         whereby the shell is at least partially surrounded by a seam.

An absorptive body is known from DE-OS 100 59 439 by this Applicant that includes a shell with absorptive material positioned within it. The absorptive material is present in the form of a textile fleece material based on cellulose in which a quantity of super-absorber granules is distributed. The total absorptive capacity of the tightly-packed material cannot be used to full advantage because it is not surrounded by the shell. Resultantly, the number of absorptive bodies used with the patient is relatively high since they often must be exchanged. This applies, for example, to colostomy and ileostomy patients who must receive expensive post-operative care.

Another disadvantage is that the super-absorber particles released from the absorptive material may also reach the outside when the absorptive body is not in use. This complicates the sterilization process of the absorptive body.

A further disadvantage of the known absorptive body is that the surrounding welded seam stiffens the absorptive body at its edge, and may have a negative influence on the patient's skin tissue, especially at the edges of swollen, inflamed wounds.

It is the object of the invention to provide an improved low-cost absorptive body of the above-mentioned type that offers the option of taking full advantage of the absorption capacity of the absorptive material.

This object is achieved by the distinguishing properties of Patent claim 1.

The body locations included in the overall concept generally refer to wounds to the skin or mucous membrane, and/or to wound surfaces.

The shell preferably includes a fine-mesh structure whose pores are between 0.05 to 1.0 mm, and preferably between 0.20 and 0.50 mm. The pores are thus smaller than the unincorporated super-absorbers that may remain within the shell.

The pores or meshes may be limited by the threads or fiber sections which possess a cross-section through the shell approximating an arch with the legs of the arches extending outward.

The shell is preferably made of a textile material of soft texture, e.g., from synthetic, ultra-thin, medically-neutral fleece material. The soft structure of the material contributes to a gentle treatment of the wound since the free edges on the overlap of the shell may be deformed or bent upon contact with the wound. Perforated or mesh-type hydrophobic fleece-type film such as polyethylene or polypropylene film or a natural-fiber fabric or fleece impregnated with substances such as silicon, paraffin, wax, or similar that the skin can withstand. The shell material is preferably stretchable at least along one direction.

The absorptive material positioned within the shell may be formed from a plastic fabric or fleece, e.g., from cellulose fibers.

The known so-called super-absorber may, for example, be in the form of a granulate based on a sodium acrylate-acrylic acid- polymerisate that is finely distributed within the carrier matrix, i.e., into cellulose-type material sections.

The absorptive material may also be of gel or sponge type. It is also conceivable to use a flat, sponge-like form as absorptive material that is of open-pore design that is impregnated with a hydro-gel. The absorptive material, including hydro-gel, may be enriched with wound-healing material, e.g., with fever-reducing enzymes from the protease group, or with peptides and/or antibiotics. For this, it is recommended to use a hetero-poly-saccharide such as Agar-Agar or other biologically compatible substances.

The flat absorptive body may be oval, round, polygonal, or trapezoidal.

The surface of the material section is preferably 20% to 35% smaller than the surface of the shell, whereby the latter is limited by the surrounding seam.

It is of great advantage for the shell, viewing the flat side from above, to possess a surrounding overlap that extends over the seam so that the absorptive body is free of hard, sharp edges and corners, and damage to the patient's tissues may largely be prevented at each moment of the absorption process.

A large number of cuts may be cut into the overlap that are preferably slightly shorter than the width of the overlap. This measure contributes to the fact that the outer edges of the overlap can give even further. Moreover, the overlap and/or the surrounding seam may be rounded in the corner areas of the absorptive body.

The absorptive material may consist of two or more layers positioned to lie flat within the shell that possess either the same or different absorptive power. Further, an inner wall may be positioned between the layers that either totally or partially separates the layers from one another.

Both the shell and the absorptive material positioned within the shell may be provided with an odor-suppressing and/or neutralizing or masking additive, e.g., with an activated charcoal filter or with additives with which active nitrogen or sulfur/hydrogen compounds, for example, may be removed from the gaseous milieu.

Odor-suppressing materials may include natural substances or extracts, bio-inert materials, or plastics that possess a specific electronic negativity under which a deposit and combining of sulfur/hydrogen compounds may result. For this, the plastic molecules possess specific geometric shapes such as prisms or spirals.

Overall, the absorptive material so positioned, as well as the shell described above, are in the position to create an inner micro-climate that promotes healing.

An additional inner shell of an absorptive material such as cotton or cellulose may be positioned between the absorptive material and the shell whose ability to absorb is low, or is less than that of the absorptive material. Such an inner shell makes direct contact between the mucous-membrane cells at the wound or body cavity and the absorptive material more difficult. In this manner, one achieves the fact that the secretions may be at least partially distributed in a controlled manner.

Instead of an intermediary layer with limited absorptivity, a film permeable to fluids may be used that is also provided with at least one aperture. In this case, it is recommended to adhere the film to the shell.

The absorptive material may consist of two or more layers positioned flat within the shell that possess the same or different degrees of absorptivity. Further, an inner wall may be positioned between the layers that partially or completely separate the layers from one another.

Further, a fluid-permeable film section may be mounted on at least one outer side of the fluid-permeable shell.

The shell and/or the absorptive material may have a substance such as an adhesive that adheres to the patient's body provided on its circumference. Suitable adhesives include, for example, pectin/cellulose compounds. The substance to be sealed off must, however, allow for the simple removal or pulling off of the absorptive body from the patient's body. Such an absorptive body is particularly suited to being laid on a wound, or for direct treatment with post-operative drainage systems. This substance is preferably so selected that it allows for the simple removal of the absorptive body from the patient's body.

The absorptive body based on the invention may be used within the scope of wound treatment, particularly during secondary healing of a wound, i.e., during strong exudation or transudation, e.g., during decubitus, secondary healing laparotomy wounds, ulcus cruris, and for post-operative wounds or seams.

Further properties and advantages of the invention may be taken from the following embodiment examples which are described in detail using illustrations, which show:

FIG. 1 the flat side of a rectangular absorptive body as seen from above;

FIG. 2 the flat side of an oval absorptive body as seen from above;

FIGS. 3a/3b part of the absorptive body along projection A-A per FIG. 1;

FIG. 4 a trapezoidal absorptive body;

FIG. 5 the flat side of a square absorptive body as seen from above;

FIG. 6 another embodiment of the absorptive body;

FIG. 7 perspective view of an absorptive body with absorptive material in the form of a multi-dimensional body;

FIG. 8a the flat side of an absorptive body with wings as seen from above;

FIG. 8b perspective view of the absorptive body per FIG. 8a;

FIGS. 9-13 schematic cross-section of other embodiment shapes of the absorptive body;

FIG. 14 the flat side of a square absorptive body with cuts in the overlap as seen from above;

FIGS. 15, 16 the flat side of the absorptive body per FIG. 12 with an inner aperture, and a cross-section;

FIG. 17 perspective view of the absorptive body per FIG. 1 being stripped from an ileostomy bag;

FIG. 18 a schematic view from above of the flat side of a trapezoidal absorptive body per FIG. 4, inserted into a colostomy bag;

FIG. 19 a partial cutaway view through the absorptive body in the seam area;

FIG. 20 an ensemble consisting of three absorptive bodies;

FIG. 21 an ensemble consisting of two absorptive bodies connected to each other via a tearable perforation line; and

FIG. 22 the flat side of a square absorptive body with rounded corner sections as seen from above.

FIG. 1 shows a absorptive body 50 that consists of a shell 2 and absorptive material 1 in the form of a flat cellulose-type material section loosely placed into it. The material section possesses a thickness of about 2 mm, and is impregnated with super-absorber granulate. The dimensions of the material section are:

-   Length 15.5 cm, -   Width: 9.0 cm; -   Thickness: 2.0 mm.

The shell 2 per FIG. 1 is made of two equal sidewalls 2.1, 2.2 connected together at their peripheries by means of a weld seam 4. The dimensions of the material shell 2 are:

-   Length 19 cm, -   Width: 10 cm;

Measured between the opposing seams.

Resultantly, the surface area Fl is about ⅔ of the surface area F2.

The full absorptive capability of the absorptive material may be fully developed by means of the advantageous geometric ratios between the areas F1 and F1 of the shell 2 and of the absorptive material 1.

The shell 2 includes a fine-mesh structure whose pores 20 in this case are about 0.15 mm to 0.25 mm.

A peculiarity of the absorptive body 50 is a surrounding overlap 5 extending out over the weld seam 4 whose width 6 (see FIG. 1) is between 4 mm and 5 mm. The task of the overlap 5 is to form a soft buffer zone between the patient's tissue such as an open wound 15 (see FIG. 3b) in case the absorptive body is handled with insufficient care, i.e., if the edge or corner of the absorptive body touches the sensitive wound. FIGS. 3a and 3b show that the free outer edges 7.1 and 7.2 of the shell at the overlap 5 contain no stiff areas. Rather, the outer edges 7.1 and 7.2 are deformed as shown in FIG. 3b. The outer edges 7.1 and 7.2 spread apart, or gently deploy in one direction so that the wound 15 is protected from contact with the seam (particularly with an absorptive body that is positioned edgewise or obliquely).

It is suggested that other shells, particularly square shells with an overlap 5, e.g., with dimensions of 5.0 cm×5.0 cm or 7.0 cm by 7.0 cm be used in which the surface of the inner absorptive material section is correspondingly smaller (see FIG. 5).

FIG. 22 shows a flat absorptive body whose overlap 5 is gently rounded at the corner areas 33. Dotted lines depict a rounding of the seam 4 in the corner areas 33.

FIG. 2 shows an elliptical absorptive body 51 in which the absorptive material 1 is attached to the shell 2 by means of a single, central adhering point 8. The absorptive material may not be separated from the shell 2. Medically suitable adhesive substances or mixtures may be used as adhesives that dissolve upon swelling of the absorptive material (not shown).

FIG. 4 shows a trapezoid-shaped absorptive body 52 into whose shell 2 a section of the above-described textile absorptive material with super-absorber has been placed. The one-piece manufactured shell 2 is folded along the trapezoid base edge 28, and is welded together at the other edges. In the present case, the shell does not include an overlap extending past the weld seam. Since the surface area F1 of the textile absorptive material is significantly smaller than the surface area F2 of the shell, the absorption process may proceed unhindered.

FIG. 6 shows a deviating embodiment example of the absorptive body (reference index 53) in which the height (H) of the rectangular material section corresponds to the separation between two opposing seams, and in which the width of the shell is greater than the width of the material section. The displaceability of the inner material section is ensured only along direction X.

FIG. 7 shows that an absorptive material 1 free to move may be used instead of the flat one in the shape of a prismatic body 14 that may be adapted to any raised and/or recessed part of the wound. The body 14 consists of several absorptive material sections overlaid in a pyramid fashion and connected by at least a spot weld. These material sections may possess the same, or differing, degrees of absorption. Any number of prismatic shapes of the freely-moving absorptive material 1 are conceivable. Overall, the absorptive body 54 shown in FIG. 7 are also flat, but somewhat thicker than the individual absorptive bodies 50; 51; 52 and 53.

In another embodiment example (reference index 55; see FIGS. 8a and 8b), an absorptive body is involved whose shell 2 includes a cut line 17 to the center that is positioned perpendicular with respect to the seam 4 or the overlap, and a portion of the absorptive body is divided into two flexible wings 18.1, 18.2.

The wing-shaped form allows placement of the absorptive body around a drain or tube-type exit point. The absorbing material section 1 in this case is U-shaped, whereby each of its two U arms 11.1 and 11.2 are completely surrounded by the seam and the overlap. Instead of the cut line, a U- or V-shaped section may be removed (not shown).

FIG. 9 shows an absorptive body 56 with an inner shell 9 that completely surrounds the absorptive material 1 (super-absorber). The surrounding shell 9 is made of a fluid-absorptive material whose ability to absorb is less than that of the inner absorptive body 1. The surrounding shell 9 is in turn surrounded by the outer shell 2 with overlap 5.

FIG. 10 shows an absorptive body (reference index 57) in which the absorptive material consists of two layers 26.1, 26.2, of a super-absorber whereby they are distinguished from each other by degree of absorption.

In a similar embodiment example (see FIG. 11), an absorptive body 58 is involved that includes a fluid-permeable separating wall dividing the absorptive body into two chambers 21.1, 21.2. A layer 26.1; 26.2 is positioned within each chamber 21.1, 21.2.

FIG. 12 shows an absorptive body 59 with an inner intermediary layer 23. The intermediary layer 23 made of cotton includes a smaller degree of absorptivity than that of the absorptive material 1 itself, and has the task of preventing contact between the mucous-membrane cells of the wound and the absorptive material.

As FIG. 13 shows, a fluid-permeable film layer 3 is positioned on an outer side 13 of an absorptive body 60. the film section 3 is preferably transparent, and extends over the entire surface limited by the surrounding seam 4 but excluding the overlap 5. Nearly all above-mentioned embodiment examples are suited to manufacture the absorptive body 60 (except reference index 58).

An absorptive body 61 shown in FIG. 14 distinguishes itself by several cuts 11 that are placed in the overlap 5 and positioned about its periphery. Thus, a “greased” overlap 5 is formed whose outer edges may give even more.

FIGS. 15 and 16 show another absorptive body (reference index 62) whose design is a further development of the embodiment example shown in FIG. 12. A intermediary layer 16 surrounding the seam includes central, round aperture 21 that has the task of better distributing the incoming secretions. The cotton intermediary layer 16 also possesses a smaller degree of absorptivity that of the absorptive material 1 itself. Instead of an absorptive one, a fluid-permeable, e.g., film-type intermediary layer (not shown) with the aperture 21 may be provided.

FIG. 18 shows the positioning of a trapezoid-shaped absorptive body 52 within a schematically-indicated colostomy bag 27. The absorptive body 52 is to be attached to the colostomy bag via a button-like fastener. A biologically compatible adhesive is best suited for adhesion. This attachment may be releasable.

FIG. 19 shows an enlarged partial cutaway through the shell 2 in the area of the overlap 5 and the surrounding seam 4. The smooth, hydrophobic material of the shell 2 includes numerous, gently-sloping arches 42 directed outward that lie between the pores 20. This material structure of the shell achieves the fact that the fluid glides over the surface of the shell, and may pass through the pores more easily into the interior of the absorptive body.

Further, FIG. 20 shows an ensemble 30 consisting of three flat, rectangular absorptive bodies 50 each of which is about 20 cm long and about 3 cm to 4 cm wide. The overall result is a flat shape that may be inserted into a conventional ileostomy bag. Since the absorptive bodies 50 are welded together only at two bodies may be grabbed using forceps 24 via an available aperture, and may be separated and extracted. Thus, adequate free space k between the material section 1 and the seam 4 is ensured so that manipulation with the forceps may be simplified. FIG. 17 shows a ileostomy bag 22 from which a used absorptive body 50 is removed at its lower opening 25 by means of the forceps 24.

Finally, FIG. 21 shows a further ensemble 31 consisting of two equally flat, rectangular absorptive bodies 50 connected to each other via a penetrating perforation line 32. The perforation line 32 allows simple separation of the two absorptive bodies from each other. As FIG. 21 shows, the perforation line 32 runs exactly along the centerline between the seam sections of the absorptive body while maintaining the provided overlaps 5. This enables trained personnel to rip the product to the center, for example, of the perforation line 32 and to place it around a tubular line. The ensemble may be folded together along the perforation line 32.

The absorptive body or ensemble based on the invention is preferably sold as a sterile product sealed within an air tight package. Reference Index List  1 Absorptive material  2 Shell Huelle  3 Foil section Folienabschnitt  4 Seam Naht  5 Overlap Ueberstand  6 Width Breite  8 Adhering point Klebepunkt  9 Surrounding shell Umhuellung 10 Separating wall Trennwand 11 Cut Einschnitt 12 Intermediary layer Zwischenlage 13 Outer side Aussenseite 14 Body Koerper  7.1, Outer edge Aussenkante  7.2 15 Wound Wunde 16 Intermediary layer Zwischenlage 17 Cut line Schnittlinie 20 Pores Poren 21 Aperture Oeffnung 22 Ileostomy bag Iloestomiebeutel 23 Intermediary layer Zwischenlage 24 Forceps Pinzette 25 Aperture Oeffnung 27 Colostomy bag Kolostomiebeutel 28 Trapezoid base edge Trapez-Basiskante 29 Adhesive Verklebung 30 Ensemble Ensemble 31 Ensemble Ensemble 32 Perforation line Perforationslinie 33 Corner area Ecorner areaereich 18.1, Wing Fluegel 18.2 19.1, Connecting point Verbindungsstelle 19.2 42 Arched area Woelbung 26.1, Layer Lage 26.2 50˜62 Absorptive body Absorptionskoerper F1; F2 Surface Flaeche H Height dimension Hoehenmass k Separation Abstand X Direction Richtung 

1-28. (canceled)
 29. An absorptive body for attachment to the human body, particularly for the purpose of absorbing fluids exiting the human body from points such as wounds, said absorptive body comprising: (a) an essentially flat material section of absorptive material including an absorptive fleece with super-absorber particles embedded in it; and (b) a moisture-permeable shell surrounding the absorptive material and forming a barrier against particulate elimination and allowing penetration of other eliminated substances to the material section of absorptive material positioned within the shell, said shell being at least partially surrounded by a seam; the improvement wherein the material section, when seen from above, includes a surface (F1) which, in its unwetted state, is 3% to 75% smaller than the surface (F2) of the shell when laid flat, and wherein the shell includes pores across its entire surface, each of which is smaller than the unwetted super-absorber particles.
 30. Absorptive body as in claim 29, wherein a flat side of the shell, when seen from above, has an overlap extending over the seam, and wherein the absorptive body is free of hard, sharp edges or corners.
 31. Absorptive body as in claim 29, wherein the pores of the shell are limited by the thread or fiber sections which have a cross-section through the shell approximating an arch with the legs of the arches extending outward.
 32. Absorptive body as in claim 29, wherein the shell has at least one cutout or cut line that divides a portion of the absorptive body into at least two flexible wings.
 33. Absorptive body as in claim 32, wherein the cutout or line is oblique to the seam.
 34. Absorptive body as in claim 32, wherein the cutout or cut line is perpendicular to the seam.
 35. Absorptive body as in claim 32, wherein the cutout or cut line extends to the center of the absorptive body.
 36. Absorptive body as in claim 32, wherein the cutout or cut line is surrounded by the seam that extends and connects to the rest of the seam.
 37. Absorptive body as in claim 29, wherein the flat side of the material section, in top view, is one of a U-shape and W-shape.
 38. Absorptive body as in claim 29, wherein an additional inner shell of absorptive material is positioned between the absorptive material and the shell, the absorptivity of the additional inner shell being less than that of the absorptive material itself, whereby direct contact between the mucous-membrane cells at the wound or body cavity and the absorptive material is limited.
 39. Absorptive body as in claim 29, wherein an additional, inner intermediary layer in the form of a material section of absorptive material is positioned between the absorptive material and the outer shell, whereby direct contact between the mucous-membrane cells at the wound or body cavity and the absorptive material is limited.
 40. Absorptive body as in claim 29, wherein a fluid-permeable film section is positioned on at least one outer side of the entire surface of the perforated shell.
 41. Absorptive body as in claim 29, wherein the shell surrounds two flat-lying layers of the absorptive material that have a same or different degree of absorptivity.
 42. Absorptive body as in claim 41, wherein the layers are separated from each other by an interior wall.
 43. Absorptive body as in claim 29, wherein its exterior dimensions are so selected that it may be extracted from a lower opening of an ileostomy bag after use.
 44. Absorptive body as in claim 29, which is loosely affixed to at least one other absorptive body positioned adjacent to it, whereby the inter-connected absorptive bodies may be separated from each other by hand.
 45. Absorptive body as in claim 44, wherein one overlap or seam is attached together at at least one connection point with the adjacent absorptive body.
 46. Absorptive body as in claim 44, which is connected by means of a perforation line with the adjacent absorptive body so that it may at least partially be torn apart.
 47. Absorptive body as in claim 29, which includes at least one affixing point by means of which the absorptive body may be affixed within a serviceable container.
 48. Absorptive body as in claim 38, wherein said additional inner shell is made of a material selected from the group consisting of cotton and cellulose.
 49. Absorptive body as in claim 39, wherein said additional intermediary layer is made of a material selected from the group consisting of cotton and cellulose. 